Difference between revisions of "KOTLIN: List"
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Kotlin list is an ordered collection of items. A Kotlin list can be either mutable (mutableListOf) or read-only (listOf). The elements of list can be accessed using indices. Kotlin mutable or immutable lists can have duplicate elements. | Kotlin list is an ordered collection of items. A Kotlin list can be either mutable (mutableListOf) or read-only (listOf). The elements of list can be accessed using indices. Kotlin mutable or immutable lists can have duplicate elements. | ||
− | Creating Kotlin Lists | + | ==Creating Kotlin Lists== |
+ | |||
For list creation, use the standard library functions listOf() for read-only lists and mutableListOf() for mutable lists. | For list creation, use the standard library functions listOf() for read-only lists and mutableListOf() for mutable lists. | ||
To prevent unwanted modifications, obtain read-only views of mutable lists by casting them to List. | To prevent unwanted modifications, obtain read-only views of mutable lists by casting them to List. | ||
− | Example | + | |
− | fun main() { | + | ===Example=== |
− | + | ||
− | + | fun main() { | |
− | + | val theList = listOf("one", "two", "three", "four") | |
− | + | println(theList) | |
− | + | ||
− | } | + | val theMutableList = mutableListOf("one", "two", "three", "four") |
+ | println(theMutableList) | ||
+ | } | ||
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | [one, two, three, four] | + | [one, two, three, four] |
− | [one, two, three, four] | + | [one, two, three, four] |
− | Loop through Kotlin Lists | + | |
+ | ==Loop through Kotlin Lists== | ||
+ | |||
There are various ways to loop through a Kotlin list. Lets study them one by one: | There are various ways to loop through a Kotlin list. Lets study them one by one: | ||
− | Using toString() function | + | Using toString() function |
− | fun main() { | + | fun main() { |
− | + | val theList = listOf("one", "two", "three", "four") | |
− | + | println(theList.toString()) | |
− | } | + | } |
+ | |||
+ | When you run the above Kotlin program, it will generate the following output: | ||
+ | |||
+ | [one, two, three, four] | ||
+ | |||
+ | ==Using Iterator== | ||
+ | |||
+ | fun main() { | ||
+ | val theList = listOf("one", "two", "three", "four") | ||
+ | |||
+ | val itr = theList.listIterator() | ||
+ | while (itr.hasNext()) { | ||
+ | println(itr.next()) | ||
+ | } | ||
+ | } | ||
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | + | one | |
− | Using | + | two |
− | fun main() { | + | three |
+ | four | ||
+ | |||
+ | ==Using for loop== | ||
+ | |||
+ | fun main() { | ||
val theList = listOf("one", "two", "three", "four") | val theList = listOf("one", "two", "three", "four") | ||
− | + | ||
− | + | for (i in theList.indices) { | |
− | + | println(theList[i]) | |
− | |||
} | } | ||
− | } | + | } |
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | one | + | one |
− | two | + | two |
− | three | + | three |
− | four | + | four |
− | Using | + | |
− | fun main() { | + | ==Using forEach== |
− | + | ||
− | + | fun main() { | |
− | + | val theList = listOf("one", "two", "three", "four") | |
− | + | ||
− | + | theList.forEach { println(it) } | |
− | + | } | |
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | one | + | one |
− | two | + | two |
− | three | + | three |
− | four | + | four |
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
Note - here it works like this operator in Java. | Note - here it works like this operator in Java. | ||
− | Size of Kotlin List | + | |
+ | ==Size of Kotlin List== | ||
+ | |||
We can use size property to get the total number of elements in a list: | We can use size property to get the total number of elements in a list: | ||
− | fun main() { | + | fun main() { |
− | + | val theList = listOf("one", "two", null, "four", "five") | |
− | + | ||
− | + | println("Size of the list " + theList.size) | |
− | } | + | } |
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | Size of the list 5 | + | Size of the list 5 |
− | The "in" Operator | + | |
+ | ==The "in" Operator== | ||
+ | |||
The in operator can be used to check the existence of an element in a list. | The in operator can be used to check the existence of an element in a list. | ||
− | Example | + | ===Example=== |
− | fun main() { | + | |
− | + | fun main() { | |
− | + | val theList = listOf("one", "two", "three", "four") | |
− | + | ||
− | + | if("two" in theList){ | |
− | + | println(true) | |
− | + | }else{ | |
− | + | println(false) | |
− | } | + | } |
+ | } | ||
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | true | + | true |
− | The contain() Method | + | |
+ | ==The contain() Method== | ||
+ | |||
The contain() method can also be used to check the existence of an element in a list. | The contain() method can also be used to check the existence of an element in a list. | ||
− | Example | + | ===Example=== |
− | fun main() { | + | |
− | + | fun main() { | |
+ | val theList = listOf("one", "two", "three", "four") | ||
+ | |||
+ | if(theList.contains("two")){ | ||
+ | println(true) | ||
+ | }else{ | ||
+ | println(false) | ||
+ | } | ||
+ | |||
+ | } | ||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | true | + | true |
− | The isEmpty() Method | + | |
+ | ==The isEmpty() Method== | ||
+ | |||
The isEmpty() method returns true if the collection is empty (contains no elements), false otherwise. | The isEmpty() method returns true if the collection is empty (contains no elements), false otherwise. | ||
− | Example | + | ===Example=== |
− | fun main() { | + | |
− | + | fun main() { | |
− | + | val theList = listOf("one", "two", "three", "four") | |
− | + | ||
− | + | if(theList.isEmpty()){ | |
− | + | println(true) | |
− | + | }else{ | |
− | + | println(false) | |
− | } | + | } |
+ | } | ||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | false | + | false |
− | The indexOf() Method | + | |
+ | ==The indexOf() Method== | ||
+ | |||
The indexOf() method returns the index of the first occurrence of the specified element in the list, or -1 if the specified element is not contained in the list. | The indexOf() method returns the index of the first occurrence of the specified element in the list, or -1 if the specified element is not contained in the list. | ||
− | Example | + | ===Example=== |
− | fun main() { | + | |
− | + | fun main() { | |
− | + | val theList = listOf("one", "two", "three", "four") | |
− | + | ||
− | } | + | println("Index of 'two' : " + theList.indexOf("two")) |
+ | } | ||
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | Index of 'two' : 1 | + | Index of 'two' : 1 |
− | The get() Method | + | |
+ | ==The get() Method== | ||
+ | |||
The get() method can be used to get the element at the specified index in the list. First element index will be zero. | The get() method can be used to get the element at the specified index in the list. First element index will be zero. | ||
− | Example | + | ===Example=== |
− | fun main() { | + | |
− | + | fun main() { | |
+ | val theList = listOf("one", "two", "three", "four") | ||
+ | |||
+ | println("Element at 3rd position " + theList.get(2)) | ||
+ | } | ||
− | |||
− | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | Element at 3rd position three | + | Element at 3rd position three |
− | List Addition | + | |
+ | ==List Addition== | ||
+ | |||
We can use + operator to add two or more lists into a single list. This will add second list into first list, even duplicate elements will also be added. | We can use + operator to add two or more lists into a single list. This will add second list into first list, even duplicate elements will also be added. | ||
− | Example | + | ===Example=== |
− | fun main() { | + | |
− | + | fun main() { | |
− | + | val firstList = listOf("one", "two", "three") | |
− | + | val secondList = listOf("four", "five", "six") | |
− | + | val resultList = firstList + secondList | |
− | + | ||
− | } | + | println(resultList) |
+ | } | ||
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | [one, two, three, four, five, six] | + | [one, two, three, four, five, six] |
− | List Subtraction | + | |
+ | ==List Subtraction== | ||
+ | |||
We can use - operator to subtract a list from another list. This operation will remove the common elements from the first list and will return the result. | We can use - operator to subtract a list from another list. This operation will remove the common elements from the first list and will return the result. | ||
− | Example | + | ===Example=== |
− | fun main() { | + | |
− | + | fun main() { | |
− | + | val firstList = listOf("one", "two", "three") | |
− | + | val secondList = listOf("one", "five", "six") | |
− | + | val resultList = firstList - secondList | |
− | + | ||
− | } | + | println(resultList) |
+ | } | ||
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | [two, three] | + | [two, three] |
− | Slicing a List | + | |
+ | ==Slicing a List== | ||
+ | |||
We can obtain a sublist from a given list using slice() method which makes use of range of the elements indices. | We can obtain a sublist from a given list using slice() method which makes use of range of the elements indices. | ||
− | Example | + | ===Example=== |
− | fun main() { | + | |
− | + | fun main() { | |
− | + | val theList = listOf("one", "two", "three", "four", "five") | |
− | + | val resultList = theList.slice( 2..4) | |
− | + | ||
− | } | + | println(resultList) |
+ | } | ||
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | [three, four, five] | + | [three, four, five] |
− | Removing null a List | + | |
+ | ==Removing null a List== | ||
+ | |||
We can use filterNotNull() method to remove null elements from a Kotlin list. | We can use filterNotNull() method to remove null elements from a Kotlin list. | ||
− | fun main() { | + | fun main() { |
− | + | val theList = listOf("one", "two", null, "four", "five") | |
− | + | val resultList = theList.filterNotNull() | |
− | + | ||
− | + | println(resultList) | |
− | } | + | } |
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | [one, two, four, five] | + | [one, two, four, five] |
− | Filtering Elements | + | |
+ | ==Filtering Elements== | ||
+ | |||
We can use filter() method to filter out the elements matching with the given predicate. | We can use filter() method to filter out the elements matching with the given predicate. | ||
− | fun main() { | + | fun main() { |
− | + | val theList = listOf(10, 20, 30, 31, 40, 50, -1, 0) | |
− | + | val resultList = theList.filter{ it > 30} | |
− | + | ||
− | + | println(resultList) | |
− | } | + | } |
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | [31, 40, 50] | + | [31, 40, 50] |
− | Dropping First N Elements | + | |
+ | ==Dropping First N Elements== | ||
+ | |||
We can use drop() method to drop first N elements from the list. | We can use drop() method to drop first N elements from the list. | ||
− | fun main() { | + | fun main() { |
− | + | val theList = listOf(10, 20, 30, 31, 40, 50, -1, 0) | |
− | + | val resultList = theList.drop(3) | |
− | + | ||
− | + | println(resultList) | |
− | } | + | } |
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | [31, 40, 50, -1, 0] | + | [31, 40, 50, -1, 0] |
− | Grouping List Elements | + | |
+ | ==Grouping List Elements== | ||
+ | |||
We can use groupBy() method to group the elements matching with the given predicate. | We can use groupBy() method to group the elements matching with the given predicate. | ||
− | fun main() { | + | fun main() { |
− | + | val theList = listOf(10, 12, 30, 31, 40, 9, -3, 0) | |
− | + | val resultList = theList.groupBy{ it % 3} | |
− | + | ||
− | + | println(resultList) | |
− | } | + | } |
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | {1=[10, 31, 40], 0=[12, 30, 9, -3, 0]} | + | {1=[10, 31, 40], 0=[12, 30, 9, -3, 0]} |
− | Mapping List Elements | + | |
+ | ==Mapping List Elements== | ||
+ | |||
We can use map() method to map all elements using the provided function:. | We can use map() method to map all elements using the provided function:. | ||
− | fun main() { | + | fun main() { |
− | + | val theList = listOf(10, 12, 30, 31, 40, 9, -3, 0) | |
− | + | val resultList = theList.map{ it / 3 } | |
− | + | ||
− | + | println(resultList) | |
− | } | + | } |
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | [3, 4, 10, 10, 13, 3, -1, 0] | + | [3, 4, 10, 10, 13, 3, -1, 0] |
− | Chunking List Elements | + | |
+ | ==Chunking List Elements== | ||
+ | |||
We can use chunked() method to create chunks of the given size from a list. Last chunk may not have the elements equal to the number of chunk size based on the total number of elements in the list. | We can use chunked() method to create chunks of the given size from a list. Last chunk may not have the elements equal to the number of chunk size based on the total number of elements in the list. | ||
− | fun main() { | + | fun main() { |
− | + | val theList = listOf(10, 12, 30, 31, 40, 9, -3, 0) | |
− | + | val resultList = theList.chunked(3) | |
− | + | ||
− | + | println(resultList) | |
− | } | + | } |
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | [[10, 12, 30], [31, 40, 9], [-3, 0]] | + | [[10, 12, 30], [31, 40, 9], [-3, 0]] |
− | Windowing List Elements | + | |
+ | ==Windowing List Elements== | ||
+ | |||
We can use windowed() method to a list of element ranges by moving a sliding window of a given size over a collection of elements. | We can use windowed() method to a list of element ranges by moving a sliding window of a given size over a collection of elements. | ||
− | fun main() { | + | fun main() { |
− | + | val theList = listOf(10, 12, 30, 31, 40, 9, -3, 0) | |
− | + | val resultList = theList.windowed(3) | |
− | + | ||
− | + | println(resultList) | |
− | } | + | } |
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | [[10, 12, 30], [12, 30, 31], [30, 31, 40], [31, 40, 9], [40, 9, -3], [9, -3, 0]] | + | [[10, 12, 30], [12, 30, 31], [30, 31, 40], [31, 40, 9], [40, 9, -3], [9, -3, 0]] |
+ | |||
By default, the sliding window moves one step further each time but we can change that by passing a custom step value: | By default, the sliding window moves one step further each time but we can change that by passing a custom step value: | ||
− | fun main() { | + | fun main() { |
− | + | val theList = listOf(10, 12, 30, 31, 40, 9, -3, 0) | |
− | + | val resultList = theList.windowed(3, 3) | |
− | + | ||
− | + | println(resultList) | |
− | } | + | } |
+ | |||
When you run the above Kotlin program, it will generate the following output: | When you run the above Kotlin program, it will generate the following output: | ||
− | [[10, 12, 30], [31, 40, 9]] | + | [[10, 12, 30], [31, 40, 9]] |
− | Kotlin mutable List | + | |
+ | ==Kotlin mutable List== | ||
+ | |||
We can create mutable list using mutableListOf(), later we can use add() to add more elements in the same list, and we can use remove() method to remove the elements from the list. | We can create mutable list using mutableListOf(), later we can use add() to add more elements in the same list, and we can use remove() method to remove the elements from the list. | ||
− | fun main() { | + | fun main() { |
− | + | val theList = mutableSetOf(10, 20, 30) | |
+ | |||
+ | theList.add(40) | ||
+ | theList.add(50) | ||
+ | println(theList) | ||
+ | |||
+ | theList.remove(10) | ||
+ | theList.remove(30) | ||
+ | println(theList) | ||
+ | } | ||
− | + | When you run the above Kotlin program, it will generate the following output: | |
− | |||
− | |||
− | + | [10, 20, 30, 40, 50] | |
− | + | [20, 40, 50] | |
− | + | ||
− | + | ==Quiz Time (Interview & Exams Preparation)== | |
− | |||
− | |||
− | |||
− | |||
Q 1 - Can we make a mutable Kotlin list as immutable? | Q 1 - Can we make a mutable Kotlin list as immutable? | ||
Latest revision as of 10:45, 23 July 2022
Sumber: https://www.tutorialspoint.com/kotlin/kotlin_lists.htm
Kotlin list is an ordered collection of items. A Kotlin list can be either mutable (mutableListOf) or read-only (listOf). The elements of list can be accessed using indices. Kotlin mutable or immutable lists can have duplicate elements.
Creating Kotlin Lists
For list creation, use the standard library functions listOf() for read-only lists and mutableListOf() for mutable lists.
To prevent unwanted modifications, obtain read-only views of mutable lists by casting them to List.
Example
fun main() { val theList = listOf("one", "two", "three", "four") println(theList) val theMutableList = mutableListOf("one", "two", "three", "four") println(theMutableList) }
When you run the above Kotlin program, it will generate the following output:
[one, two, three, four] [one, two, three, four]
Loop through Kotlin Lists
There are various ways to loop through a Kotlin list. Lets study them one by one:
Using toString() function fun main() { val theList = listOf("one", "two", "three", "four") println(theList.toString()) }
When you run the above Kotlin program, it will generate the following output:
[one, two, three, four]
Using Iterator
fun main() { val theList = listOf("one", "two", "three", "four") val itr = theList.listIterator() while (itr.hasNext()) { println(itr.next()) } }
When you run the above Kotlin program, it will generate the following output:
one two three four
Using for loop
fun main() { val theList = listOf("one", "two", "three", "four") for (i in theList.indices) { println(theList[i]) } }
When you run the above Kotlin program, it will generate the following output:
one two three four
Using forEach
fun main() { val theList = listOf("one", "two", "three", "four") theList.forEach { println(it) } }
When you run the above Kotlin program, it will generate the following output:
one two three four
Note - here it works like this operator in Java.
Size of Kotlin List
We can use size property to get the total number of elements in a list:
fun main() { val theList = listOf("one", "two", null, "four", "five") println("Size of the list " + theList.size) }
When you run the above Kotlin program, it will generate the following output:
Size of the list 5
The "in" Operator
The in operator can be used to check the existence of an element in a list.
Example
fun main() { val theList = listOf("one", "two", "three", "four") if("two" in theList){ println(true) }else{ println(false) } }
When you run the above Kotlin program, it will generate the following output:
true
The contain() Method
The contain() method can also be used to check the existence of an element in a list.
Example
fun main() { val theList = listOf("one", "two", "three", "four") if(theList.contains("two")){ println(true) }else{ println(false) } }
When you run the above Kotlin program, it will generate the following output:
true
The isEmpty() Method
The isEmpty() method returns true if the collection is empty (contains no elements), false otherwise.
Example
fun main() { val theList = listOf("one", "two", "three", "four") if(theList.isEmpty()){ println(true) }else{ println(false) } }
When you run the above Kotlin program, it will generate the following output:
false
The indexOf() Method
The indexOf() method returns the index of the first occurrence of the specified element in the list, or -1 if the specified element is not contained in the list.
Example
fun main() { val theList = listOf("one", "two", "three", "four") println("Index of 'two' : " + theList.indexOf("two")) }
When you run the above Kotlin program, it will generate the following output:
Index of 'two' : 1
The get() Method
The get() method can be used to get the element at the specified index in the list. First element index will be zero.
Example
fun main() { val theList = listOf("one", "two", "three", "four") println("Element at 3rd position " + theList.get(2)) }
When you run the above Kotlin program, it will generate the following output:
Element at 3rd position three
List Addition
We can use + operator to add two or more lists into a single list. This will add second list into first list, even duplicate elements will also be added.
Example
fun main() { val firstList = listOf("one", "two", "three") val secondList = listOf("four", "five", "six") val resultList = firstList + secondList println(resultList) }
When you run the above Kotlin program, it will generate the following output:
[one, two, three, four, five, six]
List Subtraction
We can use - operator to subtract a list from another list. This operation will remove the common elements from the first list and will return the result.
Example
fun main() { val firstList = listOf("one", "two", "three") val secondList = listOf("one", "five", "six") val resultList = firstList - secondList println(resultList) }
When you run the above Kotlin program, it will generate the following output:
[two, three]
Slicing a List
We can obtain a sublist from a given list using slice() method which makes use of range of the elements indices.
Example
fun main() { val theList = listOf("one", "two", "three", "four", "five") val resultList = theList.slice( 2..4) println(resultList) }
When you run the above Kotlin program, it will generate the following output:
[three, four, five]
Removing null a List
We can use filterNotNull() method to remove null elements from a Kotlin list.
fun main() { val theList = listOf("one", "two", null, "four", "five") val resultList = theList.filterNotNull() println(resultList) }
When you run the above Kotlin program, it will generate the following output:
[one, two, four, five]
Filtering Elements
We can use filter() method to filter out the elements matching with the given predicate.
fun main() { val theList = listOf(10, 20, 30, 31, 40, 50, -1, 0) val resultList = theList.filter{ it > 30} println(resultList) }
When you run the above Kotlin program, it will generate the following output:
[31, 40, 50]
Dropping First N Elements
We can use drop() method to drop first N elements from the list.
fun main() { val theList = listOf(10, 20, 30, 31, 40, 50, -1, 0) val resultList = theList.drop(3) println(resultList) }
When you run the above Kotlin program, it will generate the following output:
[31, 40, 50, -1, 0]
Grouping List Elements
We can use groupBy() method to group the elements matching with the given predicate.
fun main() { val theList = listOf(10, 12, 30, 31, 40, 9, -3, 0) val resultList = theList.groupBy{ it % 3} println(resultList) }
When you run the above Kotlin program, it will generate the following output:
{1=[10, 31, 40], 0=[12, 30, 9, -3, 0]}
Mapping List Elements
We can use map() method to map all elements using the provided function:.
fun main() { val theList = listOf(10, 12, 30, 31, 40, 9, -3, 0) val resultList = theList.map{ it / 3 } println(resultList) }
When you run the above Kotlin program, it will generate the following output:
[3, 4, 10, 10, 13, 3, -1, 0]
Chunking List Elements
We can use chunked() method to create chunks of the given size from a list. Last chunk may not have the elements equal to the number of chunk size based on the total number of elements in the list.
fun main() { val theList = listOf(10, 12, 30, 31, 40, 9, -3, 0) val resultList = theList.chunked(3) println(resultList) }
When you run the above Kotlin program, it will generate the following output:
[[10, 12, 30], [31, 40, 9], [-3, 0]]
Windowing List Elements
We can use windowed() method to a list of element ranges by moving a sliding window of a given size over a collection of elements.
fun main() { val theList = listOf(10, 12, 30, 31, 40, 9, -3, 0) val resultList = theList.windowed(3) println(resultList) }
When you run the above Kotlin program, it will generate the following output:
[[10, 12, 30], [12, 30, 31], [30, 31, 40], [31, 40, 9], [40, 9, -3], [9, -3, 0]]
By default, the sliding window moves one step further each time but we can change that by passing a custom step value:
fun main() { val theList = listOf(10, 12, 30, 31, 40, 9, -3, 0) val resultList = theList.windowed(3, 3) println(resultList) }
When you run the above Kotlin program, it will generate the following output:
[[10, 12, 30], [31, 40, 9]]
Kotlin mutable List
We can create mutable list using mutableListOf(), later we can use add() to add more elements in the same list, and we can use remove() method to remove the elements from the list.
fun main() { val theList = mutableSetOf(10, 20, 30) theList.add(40) theList.add(50) println(theList) theList.remove(10) theList.remove(30) println(theList) }
When you run the above Kotlin program, it will generate the following output:
[10, 20, 30, 40, 50] [20, 40, 50]
Quiz Time (Interview & Exams Preparation)
Q 1 - Can we make a mutable Kotlin list as immutable?
A - Yes
B - No
Q 2 - We can add two or more lists and create a single list using + operator:
A - True
B - False
Q 2 - What does the Kotlin list get() method do?
A - It gets the list element from the given index.
B - It returns all the values of the list
C - There is no such method supported by list
D - None of the above